2. ElectricitySection 2 Section 2: Current Preview Key Ideas Bellringer Voltage and Current Electrical Potential Energy Electrical Potential Energy and Relative Position Battery Electric Cell Electrical Resistance Math Skills

3. ElectricitySection 2 Key Ideas 〉 How are electrical potential energy and gravitational potential energy similar? 〉 What causes electrical resistance?

4. ElectricitySection 2 Bellringer 1.Dry cell batteries are a source of mobile electrical power. Name five devices that use dry cell batteries. 2.Give reasons why copper is normally used to wire a home for electricity. 3.Why do you think it is important to unplug a device by pulling the plug instead of by yanking the plug out of the socket by pulling on the electrical cord? 4.Why are electrical appliances, such as razors, hair dryers, and curling irons, not to be used in the bathtub or shower?

5. ElectricitySection 2 Voltage and Current 〉 How are electrical potential energy and gravitational potential energy similar? 〉 Just as a ball will roll downhill, a negative charge will move away from another negative charge. electrical potential energy: the ability to move an electric charge from one point to another

6. ElectricitySection 2 Voltage and Current, continued The potential energy of an electric charge depends on its position in an electric field. The electrical potential energy of a moving charge decreases because the electric field does work on the charge.

7. ElectricitySection 2 Electrical Potential Energy The electrical potential energy between two negative charges decreases as the distance between them increases.

8. ElectricitySection 2 Voltage and Current, continued Potential difference is measured in volts. –potential difference: the voltage difference in potential between two points in a circuit –For a repulsive force electrical potential energy increases as the charges move closer to each other. The volt, V, is equivalent to one joule per coulomb (1 J/C). Potential difference is often called voltage.

9. ElectricitySection 2 Electrical Potential Energy and Relative Position

10. ElectricitySection 2 Visual Concept: Electrical Potential Energy

11. ElectricitySection 2 Visual Concept: Potential Difference

12. ElectricitySection 2 Visual Concept: Voltage

13. ElectricitySection 2 Voltage and Current, continued There is a voltage across the terminals of a battery. –cell: a device that produces an electric current by converting chemical or radiant energy into electrical energy –One terminal, or end, is positive, and the other is negative. –Batteries convert chemical energy into electrical energy.

14. ElectricitySection 2 Battery

15. ElectricitySection 2 Electric Cell

16. ElectricitySection 2 Voltage and Current, continued A voltage sets charges in motion. Current is the rate of charge movement. –electric current: the rate at which charges pass through a given point –The SI unit of current is the ampere, A. 1 amp = 1 C/s

17. ElectricitySection 2 Voltage and Current, continued In a direct current source the charges always move from one terminal to the other in the same direction. –example: battery Conventional current is the current made of positive charge that would have the same effect as the actual motion of charge in the material. –The direction of current is opposite to the direction that electrons move.

18. ElectricitySection 2 Visual Concept: Comparing Direct and Alternating Current

19. ElectricitySection 2 Visual Concept: Conventional Current

20. ElectricitySection 2 Electrical Resistance 〉 What causes electrical resistance? 〉 Resistance is caused by internal friction, which slows the movement of charges through a conducting material. resistance: the opposition presented to the current by a material or device

21. ElectricitySection 2 Electrical Resistance, continued Resistance can be calculated if current and voltage are known. –A conductor’s resistance indicates how much the motion of charges within it is resisted because of collisions of electrons with atoms. –Ohms’ law: –The SI unit of resistance is the ohm (Ω). 1 Ω = 1 V/A A resistor is a special type of conductor used to control current.

22. ElectricitySection 2 Math Skills Resistance The headlights of a typical car are powered by a 12 V battery. What is the resistance of the headlights if they draw 3.0 A of current when turned on? 1. List the given and unknown values. Given: current, I = 3.0 A voltage, V = 12 V Unknown: resistance, R = ? Ω

23. ElectricitySection 2 Math Skills, continued 2.Write the equation for resistance. R = 4.0  3.Insert the known values into the equation, and solve.

24. ElectricitySection 2 Electrical Resistance, continued Conductors have low resistances. Insulators have high resistances. Semiconductors conduct under certain conditions. –semiconductors: materials that have electrical properties between those of insulators and conductors Some materials can become superconductors. –Some metals and compounds have zero resistance when their temperature falls below the critical temperature. –Once a current is established in a superconductor, the current continues even if the applied voltage is removed.